The effects of surface traction characteristics on frictional demand and kinematics in tennis

Loic  Damm; Daniel Craig Low; Andrea Richardson; James  Clarke; Matt Carre; Sharon Dixon

doi:10.1080/14763141.2013.784799

The effects of surface traction characteristics on frictional demand and kinematics in tennis

Loic Damm, Daniel Craig Low, Andrea Richardson, James Clarke, Matt Carre, Sharon Dixon

Allbwn ymchwil: Cyfraniad at gyfnodolyn › Erthygl › adolygiad gan gymheiriaid

Crynodeb

The interaction between footwear and surfaces inﬂuences the forces experienced by tennis players. The purpose of this study was to investigate traction demand and kinematic adaptation during tennisspeciﬁc movements with changes in traction characteristics of surfaces. We hypothesised that players
would increase the utilised coefﬁcient of friction (horizontal to vertical ground reaction force ratio) when the shoe surface combination had a high coefﬁcient of friction and ﬂex their knee after contact to facilitate braking. Eight participants performed two separate movements, side jump out of stance and running forehand. Ground reaction force was measured and three-dimensional kinematic data were recorded. Clay surface and cushioned acrylic hard court (low vs. high shoe–surface friction) were used. The peak utilised coefﬁcient of friction was greater on clay than the hard court. The knee was less ﬂexed
at impact on clay (25.6 ^ 10.28) and at peak ﬂexion (213.1 ^ 12.08) during the running forehand. Our results indicate that tennis players adapt the level of utilised friction according to the characteristics of the surface, and this adaptation favours sliding on the low friction surface. Less knee ﬂexion
facilitates sliding on clay, whereas greater knee ﬂexion contributes to braking on the hard court.

Iaith wreiddiol	Saesneg
Tudalennau (o-i)	389-402
Nifer y tudalennau	14
Cyfnodolyn	Sports Biomechanics
Cyfrol	12
Rhif cyhoeddi	4
Dyddiad ar-lein cynnar	11 Ebr 2013
Dynodwyr Gwrthrych Digidol (DOIs)	https://doi.org/10.1080/14763141.2013.784799
Statws	Cyhoeddwyd - 2013

Mynediad at Ddogfen

10.1080/14763141.2013.784799

Cysylltiad parhaol

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Ffeiliau eraill a chysylltiadau

http://hdl.handle.net/2160/11996

Dyfynnu hyn

@article{438b8cf2273441e1bb21a34102e29db0,

title = "The effects of surface traction characteristics on frictional demand and kinematics in tennis",

abstract = "The interaction between footwear and surfaces inﬂuences the forces experienced by tennis players. The purpose of this study was to investigate traction demand and kinematic adaptation during tennisspeciﬁc movements with changes in traction characteristics of surfaces. We hypothesised that playerswould increase the utilised coefﬁcient of friction (horizontal to vertical ground reaction force ratio) when the shoe surface combination had a high coefﬁcient of friction and ﬂex their knee after contact to facilitate braking. Eight participants performed two separate movements, side jump out of stance and running forehand. Ground reaction force was measured and three-dimensional kinematic data were recorded. Clay surface and cushioned acrylic hard court (low vs. high shoe–surface friction) were used. The peak utilised coefﬁcient of friction was greater on clay than the hard court. The knee was less ﬂexedat impact on clay (25.6 ^ 10.28) and at peak ﬂexion (213.1 ^ 12.08) during the running forehand. Our results indicate that tennis players adapt the level of utilised friction according to the characteristics of the surface, and this adaptation favours sliding on the low friction surface. Less knee ﬂexionfacilitates sliding on clay, whereas greater knee ﬂexion contributes to braking on the hard court.",

keywords = "knee flexion, sliding, mechanical testing, injuries, footwear",

author = "Loic Damm and Low, {Daniel Craig} and Andrea Richardson and James Clarke and Matt Carre and Sharon Dixon",

note = "Damm, L., Low, D. C., Richardson, A., Clarke, J., Carre, M., Dixon, S. (2013). The effects of surface traction characteristics on frictional demand and kinematics in tennis. Sports Biomechanics, 12 (4), 389-402",

year = "2013",

doi = "10.1080/14763141.2013.784799",

language = "English",

volume = "12",

pages = "389--402",

journal = "Sports Biomechanics",

issn = "1476-3141",

publisher = "Taylor & Francis",

number = "4",

}

TY - JOUR

T1 - The effects of surface traction characteristics on frictional demand and kinematics in tennis

AU - Damm, Loic

AU - Low, Daniel Craig

AU - Richardson, Andrea

AU - Clarke, James

AU - Carre, Matt

AU - Dixon, Sharon

N1 - Damm, L., Low, D. C., Richardson, A., Clarke, J., Carre, M., Dixon, S. (2013). The effects of surface traction characteristics on frictional demand and kinematics in tennis. Sports Biomechanics, 12 (4), 389-402

PY - 2013

Y1 - 2013

N2 - The interaction between footwear and surfaces inﬂuences the forces experienced by tennis players. The purpose of this study was to investigate traction demand and kinematic adaptation during tennisspeciﬁc movements with changes in traction characteristics of surfaces. We hypothesised that playerswould increase the utilised coefﬁcient of friction (horizontal to vertical ground reaction force ratio) when the shoe surface combination had a high coefﬁcient of friction and ﬂex their knee after contact to facilitate braking. Eight participants performed two separate movements, side jump out of stance and running forehand. Ground reaction force was measured and three-dimensional kinematic data were recorded. Clay surface and cushioned acrylic hard court (low vs. high shoe–surface friction) were used. The peak utilised coefﬁcient of friction was greater on clay than the hard court. The knee was less ﬂexedat impact on clay (25.6 ^ 10.28) and at peak ﬂexion (213.1 ^ 12.08) during the running forehand. Our results indicate that tennis players adapt the level of utilised friction according to the characteristics of the surface, and this adaptation favours sliding on the low friction surface. Less knee ﬂexionfacilitates sliding on clay, whereas greater knee ﬂexion contributes to braking on the hard court.

AB - The interaction between footwear and surfaces inﬂuences the forces experienced by tennis players. The purpose of this study was to investigate traction demand and kinematic adaptation during tennisspeciﬁc movements with changes in traction characteristics of surfaces. We hypothesised that playerswould increase the utilised coefﬁcient of friction (horizontal to vertical ground reaction force ratio) when the shoe surface combination had a high coefﬁcient of friction and ﬂex their knee after contact to facilitate braking. Eight participants performed two separate movements, side jump out of stance and running forehand. Ground reaction force was measured and three-dimensional kinematic data were recorded. Clay surface and cushioned acrylic hard court (low vs. high shoe–surface friction) were used. The peak utilised coefﬁcient of friction was greater on clay than the hard court. The knee was less ﬂexedat impact on clay (25.6 ^ 10.28) and at peak ﬂexion (213.1 ^ 12.08) during the running forehand. Our results indicate that tennis players adapt the level of utilised friction according to the characteristics of the surface, and this adaptation favours sliding on the low friction surface. Less knee ﬂexionfacilitates sliding on clay, whereas greater knee ﬂexion contributes to braking on the hard court.

KW - knee flexion

KW - sliding

KW - mechanical testing

KW - injuries

KW - footwear

UR - http://hdl.handle.net/2160/11996

U2 - 10.1080/14763141.2013.784799

DO - 10.1080/14763141.2013.784799

M3 - Article

C2 - 24466651

SN - 1476-3141

VL - 12

SP - 389

EP - 402

JO - Sports Biomechanics

JF - Sports Biomechanics

IS - 4

ER -

The effects of surface traction characteristics on frictional demand and kinematics in tennis

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